Paternal Age 40 Years: an Important Risk Factor for Infertility

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Paternal age ≥ 40 years: an important risk factor for infertility Elise de la Rochebrochard, Patrick Thonneau

To cite this version:

Elise de la Rochebrochard, Patrick Thonneau. Paternal age ≥ 40 years: an important risk factor for infertility. American Journal of Obstetrics and Gynecology, Elsevier, 2003, 189 (4), pp.901 - 905. 10.1067/s0002-9378(03)00753-1. hal-02264913

HAL Id: hal-02264913 https://hal.archives-ouvertes.fr/hal-02264913 Submitted on 7 Aug 2019

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La Rochebrochard Elise (de), Thonneau Patrick, 2003, “Paternal age ≥ 40 years: an important risk factor for infertility”. American Journal of Obstetrics and Gynecology, 189(4), p. 901- 905. DOI: 10.1067/s0002-9378(03)00753-1

Paternal age ≥ 40 years: an important risk factor for infertility

Elise de La Rochebrochard, PhD, INSERM (Institut National de la Santé et de la Recherche Médicale), Unit 569, 94275 Le Kremlin-Bicêtre, France, [email protected]

Patrick Thonneau, MD, MSc Gynecol-Obstet, From Institut National de la Santé et de la Recherche Médicalea and the Human Fertility Research Group, INSERM, Paule de Viguier Hospital, [email protected]

CORRESPONDENCE AND REPRINT REQUESTS TO: Dr P. Thonneau, Human Human

Fertility Research Group, Paule de Viguier Hospital, 330 avenue de Grande Bretagne, TSA

70034, 31059 Toulouse cedex 9, France, telephone: 33 5 61 77 80 25; fax: 33 5 61 77 78 43; e-mail: [email protected].

CONDENSATION: Risks of delay in pregnancy onset and of difficulties in having a baby increased with paternal age of ≥40 years in a large European database.

ABSTRACT

Objective: To examine the risk of infertility associated with paternal age, as this factor has rarely been investigated, whereas maternal age of ≥35 years is a well-known risk factor.

Study design: This large, retrospective, population-based sample included 6,188 European women (from Denmark, Italy, Spain, Germany) aged 25 to 44 years randomly selected from census registers in 1991-1993.

Results: Among couples composed of a woman aged 35-39 years, risks were significantly higher when paternal age was 40 years than when paternal age was <40 years with an adjusted OR of 2.21 (1.13, 4.33) for delay in pregnancy onset (failure to conceive within 12 months) and of 3.02 (1.56, 5.85) for difficulties in having a baby (failure to conceive within

12 months or pregnancy not resulting in a live birth).

Conclusion: Like maternal age of 35 years, paternal age of 40 years should be considered as a key risk factor for infertility.

Key words: paternal age, maternal age, infertility

INTRODUCTION

In industrialized countries, the proportion of women delaying pregnancy beyond the age of 35 years has greatly increased in recent decades. Women involved in in vitro fertilization

(IVF) programs are also more frequently older than 35. However, women deciding to have children after 35 have a higher risk of infertility. 1-2 Thus, it is important to identify the risk factors faced by couples in which the woman is older than 35.

The possibility that paternal age may have an effect has rarely been considered. A few studies have concluded that paternal age affects the risks of infertility and of adverse pregnancy outcome such as miscarriage and late fetal death. 3-5 A recent European multicenter study conducted on a large cohort of couples (n=782) using natural family planning methods to avoid pregnancy showed that paternal age affects the probability of conception. 6 However, another study analyzing success rates in 558 IVF cycles with donated oocytes found no paternal age effect. 7

We investigated the possible effects of paternal age on infertility by analyzing a large

European database.

MATERIALS AND METHODS

Between 1991 and 1993, 6,188 women aged 25 to 44 years were randomly selected from census registers in Denmark, Italy, Spain and Germany, and retrospectively interviewed by trained women in a personal interview lasting 30-90 min. Questions were on their reproductive history (pregnancies, time to pregnancy, contraception, infertility, medical consultations) and sociodemographic, lifestyle and professional characteristics of the woman and her male partner. We excluded women who had never tried to conceive (n=1,369), whose last pregnancy was unplanned (n=1,193), or who started trying to conceive in the year preceding the interview because delay of conception 12 months could not be assessed in these women (n=267). We also excluded observations with missing data (n=72). Finally,

3,287 couples were selected and we analyzed the length of time for which the couple had been having intercourse without taking measures to prevent conception and the outcome of their last pregnancy.

To investigate human reproduction, most epidemiological research relies on measures of

‘time to pregnancy’ (TTP), defined as the number of noncontracepting menstrual cycles that it takes a couple to conceive. 8-9 An increase in the TTP could reflect an alteration in either the male or female gametes (gametogenesis, transport of the gametes, fertilization) or the embryo

(migration to the uterus, implantation, early survival). Thus, TTP appeared as a potentially sensitive tool to investigate reproductive hazards. Moreover, estimation of power curves of

TTP showed that small sample sizes are sufficient for investigating reproductive risk factors. 10 Based on measure of the TTP, we defined infertility as 12 months of unsuccessful attempts to conceive by considering not only couples that finally conceived, but also couples that did not conceive or that gave up trying. In order to explore not only pregnancy occurrence but also the entire reproductive process, we considered two indicators of infertility: (i) risk of delay in pregnancy onset (no conception after 12 months), (ii) risk of difficulties in having a

5 baby (no conception after 12 months or adverse pregnancy outcome, i.e. ectopic pregnancy, miscarrige or stillbirth).

To analyze paternal age, we compared men aged 40 years with men aged <40 years in accordance with the literature, which indicated a paternal age effect after 40 years.6,11 As maternal age is highly correlated with paternal age, we controlled for maternal age by considering four groups: <30 years, 30-34 years, 35-39 years, 40 years.

We investigated the paternal age effect in logistic multivariate models by estimating adjusted odds ratio (OR) on potential confounders presented in table I (countries, number of previous pregnancies, female smoking, male smoking, sexual activity, history of miscarriage, history of induced abortion). First, we analyzed the paternal age effect in the different maternal age groups. We then analyzed paternal age and maternal age together.

RESULTS

We calculated the odds ratios for risk of infertility in the different maternal age groups after adjustment for potential confounders (Table II). Among couples in which the woman was aged <30 years or 30-34 years, risk of infertility was not significantly increased when the male partner was aged 40 years. Among couples in which the woman was aged 35-39 years, the risk of delay in pregnancy onset and risk of difficulties in having a baby were significantly higher when the male partner was aged 40 years than when the male partner was aged <40 years. We could not investigate the paternal age effect in couples composed of a woman aged

40 years because there were too few observations in our database.

We then investigated the age effect by considering maternal age, paternal age or both

(Table III). When considering only maternal age, we observed that the risk of delay in pregnancy onset was significantly increased in women aged 35-39 years and that risk of difficulties in having a baby increased significantly as soon as the woman was 30 years.

When maternal and paternal age were considered together, we observed a different age pattern: the risk of delayed pregnancy onset increased in couples composed of a woman aged

35-39 years and of a man aged 40 years but not in couples composed of a woman aged 35-39 years and of a man aged <40 years. Similarly, the risk of difficulties in having a baby when the woman was aged 30-34 years was increased only if the man was 40 years. Finally, we noted that couples composed of a woman aged 35-39 years and of a man aged 40 years had clearly higher risks than other couples as indicated by an OR of 2.99 (95% CI: 1.82, 4.91) for delay in pregnancy onset and an OR of 4.58 (2.77, 7.55) for difficulties in having a baby.

Among couples composed of a woman aged 35-39 years, we observed a mean maternal age of 36.05 years if the man was <40 years and of 36.71 years if the man was 40 years. We estimated that this small increase in maternal age could not account for the large increase in

7 risk when the man was 40 years.

Among potential confounders included in models (Table II and Table III), the number of previous pregnancies was significantly associated with delay in pregnancy onset and difficulties in having a baby. Female smoking and history of miscarriage were also risk factors for difficulties in having a baby. 12-14

COMMENT

Our results obtained from a representative European database provide evidence that paternal age plays a key role in the risk of infertility. Risks were significantly higher if the male partner was aged 40 years than if the male partner was aged <40 years when the female partner was aged 35-39 years. The effect of paternal age was much less dramatic (and not significant) in couples composed of a woman aged <35 years. Similar results were exhibited in a recent study where fecundity (measured by the probability of clinical pregnancy following intercourse on a given day relative to ovulation) decreased with paternal age but only among couples composed of a woman aged 35-39 years. 6 In this study the probability of pregnancy following intercourse on only the most fertile day decreased for women aged 35 years from

0.29 when the male partner was age 35 years to 0.18 when the male partner was age 40 years.

Because maternal age ≥35 years is an important risk factor for infertility, the combined effect of maternal age of ≥35 years and of paternal age of ≥40 years increased markedly the risk of infertility (Table III). The risk of experiencing difficulties in having a baby increased more than the risk of delay in pregnancy onset, which reflects the increased risk of miscarriage with maternal age and paternal age. 15 By showing a significant paternal age effect only in women aged 35 years, these results indicated that major infertility risks may arise principally in couples where both male and female ages are elevated. This conclusion was concordant with results indicating a high risk of infertility when both partners presented reproductive disorders. 16

In this European study, data were self-reported by women without medical confirmation. Thus, two limitations must be considered: quality of history recall and variability in definition of reproductive issues. Quality of recall of time to pregnancy (TTP) and of pregnancy outcomes has been tested in studies that showed a good concordance

9 between retrospectively and prospectively collected data. 9,17 For detection of infertility

(defined as a TTP up to 12 months), the retrospective data had a sensitivity of 86.7% and a specificity of 93.5% when collected during a personal interview (versus 79.9% and 94.9% when collected by a self-completion mailed questionnaire). 9 In other respects, the European questionnaire was developed and validated (pre-tested) in order to question women by clear specification of reproductive notions (especially TTP). The interviewers were also trained to give clear information on the definition of reproductive issues.

A Medline review of surveys of infertility showed a large variation in the risk of infertility. 18 It varies highly according to the definition of infertility (usually a delay in pregnancy onset > or ≥12 or 24months) and to the studied population. For example, in our study, the risk of delay in pregnancy onset varies from 25.4% when defined as a delay 12 months among all couples trying to conceive (regardless of whether the couple did in fact conceive, did not conceive or gave up trying) to 12.4% when defined as a delay >12 months among couples having conceived. Such a level of risk of infertility is concordant with other studies on pregnant women which found a risk of 12%. 5 It has been shown that analysis of couples having conceived led to marked under-estimation of the risk of infertility, because the studied population excluded less fecund couples who had not yet conceived at the time when the survey was carried out. 8 For example, it has been shown that this selection bias could lead to an inverse maternal age effect: in studies based on pregnancy samples, the risk of infertility may appear to decrease as maternal age increases. 19 To analyze age effect in our study, we thus considered all couples whether they conceived or not, in order to avoid such marked selection bias.

There may be a genetic basis for the effects of age on male fertility, as demonstrated for female fertility. The frequency of genetic diseases due to new autosomal mutations is higher

10 in children of fathers aged ≥40 years. 11 A recent study indicated that advanced male age might also lead to an increase in the frequency of numerical and structural aberrations in sperm chromosomes. 20 The effect of paternal age may also be mediated by semen characteristics which deteriorate as the man ages. 21-22

Maternal age of ≥35 years has long been considered an important risk factor for infertility. Our results showed that for these women, the risk of infertility is significantly increased when the male partner is aged ≥40 years. Thus, paternal age ≥40 years should also be considered a key risk factor. Our results may have important implications for couples delaying childbearing and for infertile couples requesting IVF if the woman is ≥35 years of age and the man is ≥40 years of age.

ACKNOWLEDGMENTS

The European Study of Infertility and Subfecundity is a European

Community/Cooperation in Scientific and Technical Research (COST) Action Research

Program (contracts MR4/0205/DK and MR4/0343/DK). Additional support was provided by funds from each participating country. The members of the data collection project management group were Drs. S. Juul (Denmark), J. Olsen (Denmark), I. Schaumburg

(Denmark), P. Thonneau (France), W. Karmaus (Germany), I. Figá-Talamanca (Italy), L.

Bisanti (Italy), F. Bolúmar (Spain), M. Wulff (Sweden) and T. Fletcher (United Kingdom).

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TABLE I. Description of the study population (n=3287)

Characteristics No. %

Delay in pregnancy onset No 2452 74.6 Yes 835 25.4

Difficulties in having a baby No 2354 71.6 Yes 933 28.4

Maternal age <30 years 2287 69.6 30-34 years 771 23.4 35-39 years 200 6.1 40 years 29 0.9

Paternal age <40 years 3101 94.3 40 years 186 5.7

Countries Denmark 543 16.5 Germany 862 26.2 Italy 1382 42.1 Spain 500 15.2

Number of previous pregnancies 0 1088 33.1 1 2199 66.9

Female smoking No 1909 58.1 Yes 1378 41.9

Male smoking No 1353 41.2 Yes 1934 58.8

Monthly sexual activity <5 309 11.6 5-19 1949 73.2 20 403 15.2

Previous miscarriage No 2796 85.1 Yes 491 14.9

Previous induced abortion No 3007 91.5 Yes 280 8.5

TABLE II. Effect of paternal age on risk of delay in pregnancy onset and of difficulties in having a baby among different maternal age groups

Delay in pregnancy onset (a) Difficulties in having a baby (b) Maternal Paternal

age age n % adjusted OR (c) % adjusted OR (c)

Men with a female partner aged <30 years (n=2287)

 40 2243 24.12 1.00 26.21 1.00 <30   40 44 27.27 1.18 (0.60, 2.32) 29.55 1.18 (0.61, 2.28)

Men with a female partner aged 30-34 years (n=771)

716 25.00 1.00 28.21 1.00 30-34 55 29.09 1.17 (0.63, 2.18) 40.00 1.65 (0.93, 2.93)

Men with a female partner aged 35-39 years (n=200)

132 27.27 1.00 32.58 1.00 35-39 68 45.59 2.21 (1.13, 4.33) 58.82 3.02 (1.56, 5.85)

Men with a female partner aged >40 years (n=29)

10 50.00 (d) 90.00 (d) 40 - - 19 78.95 84.21

(a) No conception after 12 months of regular sexual relationship without using a birth control method.

(b) Delay in pregnancy onset (cf. (a)) or having a pregnancy not resulting in a live birth (i.e. ectopic pregnancy, miscarriage or stillbirth).

(c) OR=odds ratio, the confidence interval is indicated in brackets. Adjusted variables were: country, number of previous pregnancies, female smoking, male smoking, sexual activity, history of miscarriage, history of induced abortion.

(d) The logistic model could not be estimated because of insufficient observations.

TABLE III. Effect of age on the risk of delay in pregnancy onset and the risk of experiencing difficulties in having a baby when considering paternal age and maternal age (n=3258)

(a) (b) Maternal Paternal Delay in pregnancy onset Difficulties in having a baby

age age adjusted OR (c) adjusted OR (c) (years) (years)

Age effect when considering only maternal age

<30 - 1.00 1.00 30-34 - 1.16 (0.96, 1.41) 1.24 (1.03, 1.49) 35-39 - 1.79 (1.30, 2.46) 2.22 (1.64, 3.01)

Age effect when considering only paternal age

- <40 1.00 1.00 - 40 1.76 (1.26, 2.45) 2.30 (1.67, 3.17)

Age effect when considering maternal age and paternal age

 40 1.00 1.00 <30   40 1.18 (0.60, 2.32) 1.17 (0.60, 2.27)

1.15 (0.94, 1.40) 1.19 (0.98, 1.45) 30-34 1.39 (0.76, 2.52) 2.00 (1.15, 3.48)

1.34 (0.89, 2.00) 1.50 (1.02, 2.20) 35-39 2.99 (1.82, 4.91) 4.58 (2.77, 7.55)

(a) No conception after 12 months of regular sexual relationship without using a birth control method.

(b) Delay in pregnancy onset (cf. (a)) or having a pregnancy not resulting in a live birth (i.e. ectopic pregnancy, miscarriage or stillbirth).